Publicaciones Laboratorio de Bioingeniería de Tejidos

 

2018
  1. Cruz-Maya I, Guarino V, Alvarez-Perez MA. Protein based scaffolds for oral tissue regeneration. AIMS Materials Science xxx, xxx, in press
  2. Suarez-Franco JL, Vazquez-Vazquez FC, Montesinos-Montesinos JJ, Pozos-Guillen A, Alvarez-Fregoso O, Alvarez-Perez MA. Evaluation of hPDLSC biocompatibility with membrane fiber scaffolds for periodontal tissue engineering. Dental Material Journal, xxx, xxx, in press
  3. Calderón-Olvera RM, Albanés-Ojeda⁠ EA, García-Hipólito M, Hernández-Alcántara⁠ ⁠JM, Alvarez-Perez MA, Falcony C, Álvarez-Fregoso O. Characterization of luminescent SrAl⁠2O⁠4 films doped with terbium and europium ions deposited by ultrasonic spray pyrolysis technique. Ceramics International xxx, xxx, in press
  4. Almaguer-Flores A, González-Alva P. Antibacterial Activity of Homeopathic Medications Lycopodium clavatum and Arsenicum album Against Periodontal Bacterial. Odovtos-Int J Dent Sc 20 (2): 111-119 DOI: 10.15517/ijds.v0i0.32807.
  5. Baez-Rodriguez A, Albarran-Arreguín D, García-Velasco AC, Alvarez-Fregoso O, García-Hipólito M, Alvarez-Perez MA, Zamora-Peredo L, Falcony-Guajardo C. White and yellow light emission from ZrO2:Dye3+ nanocrystal synthesized by a facile chemical technique. Journal of Materials Science: Materials in Electronics in press https://doi.org/10.1007/s10854-018-9105-1.

Capítulos de Libros

  1. Vázquez-Vázquez FC, Hernández-Tapia LG, Chanes-Cuevas OA, Álvarez-Pérez MA, Pozos-Guillén AJ. Chapter: Air-Flow Electrofluidodinamics. Book: Electrofluidodynamic Technologies for Biomaterials and Medical Devices. ELSEVIER, ISBN 9780081017456
  2. Granados-Hernández MV, Serrano-Bello J, Chavarría-Bolaños D, Suarez-Franco JL, Guarino V, Alvarez-Perez MA. Chapter: Introduction To Electrofluidodynamic Techniques. Part II: Cell to Cell/Material Interactions. Book. Electrofluidodynamic Technologies for Biomaterials and Medical Devices. ELSEVIER, ISBN 9780081017456
2017
  1. Granados-Hernández MV, Serrano-Bello J, Montesinos-Montesinos JJ, Alvarez-Gayosso C, Medina-Velázquez LA, Alvarez-Fregoso O, Alvarez-Perez MA. In vitro and In vivo biological characterization of PLA fiber scaffolds synthesized by air jet spinning.  Journal of Biomedical Materials Research: Part B-Applied Biomaterials (J Biomed Mater Res Part B DOI: 10.1002/jbm.b.34053)
  2. Guarino V, Cruz-Maya I, Altobelli1 R, Abdul Khodir WK, Ambrosio L, Alvarez-Pèrez MA, Almaguer Flores A. Electrospun Polycaprolactone nanofibres decorated by drug loaded chitosan nano-reservoirs for antibacterial treatments. Nanotechnology doi: 10.1088/1361-6528/aa9542
  3. Ortiz M, Escobar DM, Alvarez-Perez MA, Pozos-Guillen AJ, Grandfil Ch, Flores H. Evaluation of the osteoblast behavior to PGA textile functionalized with RGD as a scaffold for bone regeneration.  Journal of Nanomaterials ID 4852190, doi.org/10.1155/2017/4852190
  4. Granados MV, Montesinos Montesinos JJ, Alvarez-Perez MA. Adhesión y proliferación de las células troncales mesenquimales de médula ósea en andamios fibrilares de poli (ácido L-láctico) (PLA). Revista Mexicana de Ingeniería Biomédica 38(1): 288-298
  5. Gómez-Lizárraga KK, Flores-Morales C, Del Prado-Audelo ML, Álvarez-Pérez MA, Piña-Barba MC, Escobedo C. Polycaprolactone and polycaprolactone/ceramic-based 3D-bioplotted porous scaffolds for bone regeneration: A comparative study. Materials Science and Engineering C 79: 326-335
  6. Vargas-Osorio Z, Chanes-Cuevas OA, Pérez-Soria A, García-Hipolito M, Alvarez-Fregoso O, Alvarez-Perez MA. Physicochemical effects of amino or sulphur functional groups onto sba-15 sol-gel synthesized ceramic mesoporous material. Journal Physica Status Solidi C 14(1-2): 1-10.
  7. Villarreal-Ramirez E, Garduño-Juarez R, Alvarez-Noguera LJ, Boskey A. Secundary structure analysis of Dentin Phosphoprotein peptides and their role on Hydroxyapatite crystal growth. Bone 95 65-75.
2016
  1. Altamirano-Valencia AA., Vargas-Becerril N, Vázquez-Vázquez FC, Vargas T, Montesinos-Montesinos JJ, Alfaro-Mayorga EA, Álvarez-Pérez MA. Biocompatibility of nanofibrous scaffolds with different concentrations of pla/hydroxyapatite. ODOVTOS-Int. J. Dental Sc. 18(3): 51-62
  2. Granados-Hernández MV, Albanes-Ojeda EA, Montesinos-Montesinos JJ, Alvarez-Fregoso O, Alvarez-Perez MA. Synthesis of PLA textile scaffolds by air jet spinning and their biocompatibility characterization. International Journal of Engineering Research and Technology; 5(7): 188-192
  3. Vargas-Osorio Z, Piñeiro Y, Vázquez-Vázquez C, Rodriguez-Abreu C, Álvarez-Pérez MA, López-Quintela MA, Rivas J. Magnetic nanocomposites based on mesoporous silica for biomedical applications. International Journal Nanotechnology 13(8/9): 648-658
  4. Vargas-Osorio Z, Argibay B, Piñeiro Y, Vázquez-Vázquez C, López-Quintela MA, Álvarez-Pérez MA, Sobrino T, Campos F, Castillo J, Rivas J. Multicore magnetic Fe3O4@C beads with enhanced magnetic response for MRI in brain biomedical applications. IEEE Transactions on Magnetics, 52(7): 230064
  5. Raucci MG, Alvarez-Perez MA, Zeppetelli S, Giugliano D, Ambrosio L. Properties of Carbon Nanotubes dispersed Sr-hydroxyapatite injectable material for bone defects. Regenerative Biomaterials, 3(1): 13–23.
  6. Boskey A, Villarreal-Ramírez E. Intrinsically Disordered Proteins and Biomineralization. Matrix Biol. 52-54, 43-59. doi: 10.1016/j.matbio.2016.01.007. Seleccionado como F1000Prime por el Profesor Vladimir Uversky (University of South Florida) https://f1000.com/prime/726101131.
2015
  1. Guarino V, Michele G, Alvarez-Perez MA, Giuseppe M, Ambrosio L. Improving surface and transport properties of macroporous hydrogels for bone regeneration. Journal of Biomedical Materials Research: Part A; 103(3): 1095-1105
  2. Raucci MG, Giugliano D, Alvarez-Perez MA and Ambrosio L. Effects on growth and osteogenic differentiation of mesenchymal stem cells by the strontium-added sol-gel hydroxyapatite gel materials. Journal of Materials Science: Materials in Medicine 26(2):90
  3. Raucci MG, Alvarez-Perez MA, Demitri C, Giugliano D, Sannino A, Ambrosio L. Effect of citric acid crosslinking cellulose-based hydrogels on osteogenic differentiation. Journal of Biomedical Materials Research: Part A 103(6):2045-2056
2014
  1. Vargas-Becerril N, Téllez-Jurado L, Reyes-Gasga J, Álvarez-Pérez MA, Rodríguez-Lorenzo LM. Synthesis of nanosized carbonated hydroxyapatite by a modified pechini method Journal of Sol-Gel Science and Technology 72(3): 571-580
  2. Montoya G, Arenas J, Romo E, Zeichner-David M, Alvarez-Perez MA, Sampath Narayanan A, Velázquez U, Mercado G, Arzate H. Human recombinant cementum attachment protein (hrptpla/cap) promotes hydroxyapatite crystal formation in vitro and bone healing in vivo. Bone 69: 154-164
  3. Cirillo V, Guarino V, Alvarez-Perez MA, Marrese M, Ambrosio L. Optimization of fully aligned bioactive electrospun fibers for in vitro nerve guidance. Journal Material Science: Materials in Medicine 25(10): 2323-2332
  4. Álvarez-Pérez MA, García-Hipólito M, Álvarez-Fregoso O, Juárez-Islas JA. Biocompatibility evaluation of Co-ribbons prepared by melt-spinning. Advances Materials Research 976: 98-102
  5. Guarino V, Scaglione S, Sandri S, Alvarez-Perez MA, Tampieri A, Quarto R, Ambrosio L. MgCHA particles dispersion in porous PCL scaffolds: in vitro mineralization and in vivo bone formation. Journal of Tissue Engineering and Regenerative Medicine, 8(4): 291-303
  6. Raucci MG, Alvarez-Perez MA, Meikle S, Ambrosio L, Santin M. Poly(Epsilon-Lysine) Dendrons tethered with phosphoserine increase mesenchymal stem cell differentiation potential of calcium phosphate gels. Tissue Eng Part A. 20(3-4): 474-85
  7. Dessì M, Alvarez-Perez MA, De Santis R, Ginebra MP, Planell JA, Ambrosio L. Bioactivation of calcium deficient hydroxyapatite with foamed gelatin gel. A new injectable self-setting bone analogue. Journal of Materials Science: Materials in Medicine 25(2): 283-95.
  8. Villarreal-Ramirez E, Garduño-Juarez R, Gericke A, Boskey A. The role of phosphorylation in dentin phosphoprotein peptide absorption to hydroxyapatite surfaces: a molecular dynamics study. Connect Tissue Res. 55 Suppl 1: 134-137 doi: 10.3109/03008207.2014.923870.
  9. Serrano J, Romo E, Bermúdez M, Narayanan AS, Zeichner-David M, Santos L, Arzate H. Bone regeneration in rat cranium critical-size defects induced by Cementum Protein 1 (CEMP1). PLoS One. 12;8(11):e78807.
  10. Maldonado S, Romo E, Serrano J, Pérez-Soria A, Guerra Ch, Zeichner-David M, Mercado Gabriela, Arzate H. Cementum Protein 1 (CEMP1) activates p38 and JNK during the mineralization process by cementoblast-like cells in vitro. Cell Biol Int Rep 21: 8-16.
2013
  1. Carbajal-Valdez R, Guzman-Mendoza J, García-Hipólito M, Alvarez-Fregoso O, Alvarez-Perez MA, Falcony C. Catodoluminiscencia em películas de óxido de háfnio activadas con európio y térbio, depositadas por la técnica de RPU.  Revista Mexicana de Física 59(4): 343–351
  2. Alvarez-Perez, MA, Guarino V, Cirillo V, Ambrosio L. Basic protocols to investigate hMSC behaviour onto electrospun fibres.  Methods Mol Biol. 1058: 109-117
  3. Wan Abdul Khodir WK, Guarino V, Alvarez-Perez MA, Cafiero C, Ambrosio L. Trapping of tetracycline loaded nanoparticles into PCL fibre networks in periodontal regeneration therapy.  Journal of Bioactive and Compatible Polymers 28(3): 258-273
  4. Suárez-Franco JL, García-Hipólito M, Surárez-Rosales MA, Fernández-Pedrero JA, Álvarez-Fregoso O, Juárez-Islas JA, Álvarez-Pérez MA. Effects of surface morphology of znal2o4 ceramic materials on osteoblastic cells responds.  Journal Nanomaterials, http://dx.doi.org/10.1155/2013/361249
  5. Guarino V, Alvarez-Perez MA, Borrelio A, Napolitano T, Ambrosio L. Conductive PANI/PEGDA macroporous hydrogels for nerve regeneration. Advanced Healthcare Materials, 2(1): 218-221
  6. Villareal Brito MT, Alvarez-Pérez MA, Marichi Rodriguez FJ. Expression de la osteocalcina en el ligamento periodontal al inducir fuerzas ortodoncicas. Revista Odontológica Mexicana, 17(3): 152-155
  7. González-Alva P, Gómez-Plata E, Arzate H. Localización de las proteínas específicas de cemento CEMP1 y CAP en células neoplásicas. J Oral Research 2013: 2(1): 11-17.
2012
  1. Raucci MG, Alvarez-Perez MA, Demitri C, Sanino A. Ambrosio L. Proliferation and osteoblastic differentiation of hMSC on cellulose-based hydrogel.  Journal of Applied Biomaterials & Functional Materials, 10(3): 302-307
  2. Suarez MA, Alvarez-Fregoso O, Alvarez-Perez MA, Herrera R, Zorilla C, Valdez S, Juarez-Islas JA.  The effect of grain refinement on the mechanical properties of a micron alloyed Steel. Revista Mexicana de Física, 58: 417-421
  3. Alvarez-Perez MA, Guarino V, Cirillo V, Ambrosio, L. In vitro mineralization and bone osteogenesis in poly(ε-caprolactone)/gelatin nanofibres.Journal of Biomedical Materials Research: Part A; 100(11): 3008-3019
  4. Guarino V, Urciuolo F, Alvarez-Perez MA, Mele B, Netti PA and Ambrosio L. Osteogenic differentiation and mineralization in fibre reinforced tubular scaffolds:  theoretical study and experimental validation. Journal of the Royal Society Interface; 9(74):2201-12
  5. Guarino V, Alvarez-Perez MA, Ambrosio L. Macroporous hydrogel to recruit osteogenic signals for bone regeneration. Journal of Tissue Engineering and Regenerative Medicine, 6(1): 212
  6. Guarino V, Alvarez-Perez MA, Cirillo V, Ambrosio L. Bilayered devices with inner bioactive nanotexture for long bone treatments. Journal of Tissue Engineering and Regenerative Medicine, 6(1): 5
  7. Kikuchi K, Ito S, Inoue H, González-Alva PC, Miyazaki Y, Sakashita H, Yoshino A, Katayama Y, Terui T, Ide F, Kusama K: Immunohistochemical expression of podoplanin in so-called hard -keratin-expressing tumors, including calcifying cystic odontogenic tumor, craniopharyngioma, and pilomatrixoma. J Oral Sci 2012; 52(2): 165-75. ISSN: 1343-4934; ISSN online: 1880-4926.

Capítulos de Libros

  1. Guarino V, Raucci MG, Alvarez-Perez MA, Cirillo V, Ronca A, Ambrosio L. Chapter: Scaffold Design for Bone Tissue Engineering: From Micrometric to Nanometric Level. Book Biologically Responsive Biomaterials for Tissue Engineering, DOI 10.1007/978-1-4614-4328-5_1, Springer Science Business Media New York, ISBN 978-1-4614-4328-5, Springer.